Haison Duong scite author profile

Fibrin is a substance formed through catalytic conversion of coagulation constituents: fibrinogen and thrombin. The kinetics of the two constituents determines the structural properties of the fibrin architecture. We have shown previously that changing the fibrinogen and thrombin concentrations in the final three-dimensional (3D) fibrin matrix influenced cell proliferation and differentiation. In this study, we further examined the effect of changing fibrinogen and thrombin concentrations in the absence or presence of fibroblasts on the structural modulus or stiffness of 3D fibrin matrices. We have prepared fibroblast-free and fibroblast-embedded 3D fibrin matrices of different fibrinogen and thrombin formulations, and tested the stiffness of these constructs using standard mechanical testing assays. Results showed that there was a corresponding increase in stiffness with increasing thrombin and fibrinogen concentrations; the increase was more notable with fibrinogen and to a lesser degree with thrombin. The effect of fibroblasts on the stiffness of the fibrin construct was also examined. We have observed a small increase in the stiffness of the fibroblast-incorporated fibrin construct as they proliferated and exhibited spreading morphology. To our knowledge, this is the first comprehensive report detailing the relationship between fibrinogen and thrombin concentrations, cell proliferation, and stiffness in 3D fibrin matrices. The data obtained may lead to optimally design suitable bioscaffolds where we can control both cell proliferation and structural integrity for a variety of tissue engineering applications.

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A multispectral LED array for the reduction of background autofluorescence in brain tissue

Duong

Han²

2013

Journal of Neuroscience Methods

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The presence of fixative-induced and cellular-derived artifactual autofluorescences (AAFs) presents a challenge in histological analysis involving immunofluorescence. We have established a simple and highly effective method for the reduction of AAFs that are ubiquitous in fixed mammalian brain and other tissues. A compact AAF-quenching photo-irradiation device was constructed using a commercially available light emitting diode (LED) array, cooling unit, and supporting components. The LED panel is comprised of an array of multispectral high intensity LEDs which serve as the illumination source for the photo-irradiation process. Rabbit and cat brain specimens of 5 μm- and 40 μm-thicknesses, respectively, were photo-irradiated for various durations. The AAFs were reduced to near tissue background levels after 24 h of treatment for both deparaffinized and paraffinized rabbit brain specimens, and for the free-floating cat brain specimens. Subsequent immunofluorescence staining using primary antibodies against GFAP, NeuN, Iba-1, and MAP-2, and the corresponding Qdot® and Alexafluor® fluoroconjugates confirmed that the LED photo-irradiation treatment did not compromise the efficiency of the immunofluorescence labeling. The use of the device is not labor intensive, and only requires minimal tissue processing and experimental set-up time, with very low maintenance and operating costs. Finally, multiple specimens, in both slide and well-plate format, can be simultaneously photo-irradiated, thus, allowing for scalable batch processing.

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Permeability of Three-Dimensional Fibrin Constructs Corresponds to Fibrinogen and Thrombin Concentrations

Chiu

Hecht

Duong

et al. 2012

BioResearch Open Access

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Research in the last few years have focused on the use of three-dimensional (3D) fibrin construct to deliver growth factors and cells. Three-dimensional construct permeability and porosity are important aspects for proper nutrient uptake, gas exchange, and waste removal—factors that are critical for cell growth and survival. We have previously reported that the mechanical strength (stiffness) of 3D fibrin constructs is dependent on the fibrinogen and thrombin concentration. In this study, we established two new in vitro models to examine how fibrin composition affects the final 3D fibrin construct permeability and pore size; thereby, influencing the diffusivity of macromolecules throughout the network of fibrin fibrils. Flow measurements of both liquid and fluoresceinated-dextran microparticles are conducted to calculate the permeability and pore size of 3D fibrin constructs of different fibrinogen and thrombin concentrations. Similarly, the diffusivity of liquid and fluoresceinated-dextran microparticles through these 3D fibrin constructs are determined through diffusion models. Data from these studies show that the structural permeability and pore size of 3D fibrin constructs directly correlate to fibrinogen and thrombin concentration in the final 3D fibrin construct. More specifically, at a constant thrombin concentration of 2 or 5 μ/mL, pore size of the 3D fibrin constructs is dependent on fibrinogen if the concentration is 5 mg/mL and to a lesser extent if the concentration is 10–15 mg/mL. These findings suggest that fibrin's diffusive property can be manipulated to fabricate 3D constructs that are optimized for cellular growth, protein transport, and for the controlled delivery of bioactive molecules such as growth factors.

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Alveolar epithelial cells express and secrete parathyroid hormone-related protein.

Hastings

Duong²,

Burton³

et al. 1994

Am J Respir Cell Mol Biol

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Parathyroid hormone-related protein (PTHrP) was discovered as a hypercalcemia-inducing product of malignant cells and has since been demonstrated to be a product of many tissues. Although it is robustly expressed in fetal lung, PTHrP expression has not been assigned to alveolar epithelial cells in adult lung. We have shown that PTHrP is expressed in the adult rat lung and by cultured rat alveolar type II epithelial cells with sensitive and specific immunoassays and immunohistochemical techniques. Immunoassay of cell extracts demonstrated that freshly isolated type II cells contained PTHrP (136 pg/10(7) cells), whereas freshly isolated alveolar macrophages and cultured macrophages did not express PTHrP. Cultured type II cells secreted PTHrP into medium, 202 +/- 11 fg PTHrP/micrograms cell protein in 24 h. Basal secretion remained stable up to 7 days in culture. Treatment with phorbol myristate acetate or 1-oleoyl-2-acetyl-sn-glycerol produced a dose-related, 2- to 4-fold increase in PTHrP secretion. However, forskolin, ionomycin, ATP, phenylephrine, capsaicin, and bradykinin had no effect. Thus, PTHrP secretion appeared to be regulated by a protein kinase C-dependent pathway. PTHrP could also be demonstrated in pulmonary lavage fluid. Although the function of PTHrP in the adult lung is unknown, it could involve control of cell growth and differentiation or control of surfactant lipid secretion. Further studies are necessary to elucidate the function of PTHrP in the lung.

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Fibrin matrices in tissue engineering

Tawil

Duong

2008

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Haison Duong

Modulation of 3D Fibrin Matrix Stiffness by Intrinsic Fibrinogen–Thrombin Compositions and by Extrinsic Cellular Activity

A multispectral LED array for the reduction of background autofluorescence in brain tissue

Permeability of Three-Dimensional Fibrin Constructs Corresponds to Fibrinogen and Thrombin Concentrations

Alveolar epithelial cells express and secrete parathyroid hormone-related protein.

Fibrin matrices in tissue engineering

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